Pancreatic cancer is the most lethal common solid malignancy. Systemic therapies are often ineffective, and predictive biomarkers to guide treatment are urgently needed. We generated a pancreatic cancer patient-derived organoid (PDO) library that recapitulates the mutational spectrum and transcriptional subtypes of primary pancreatic cancer. New driver oncogenes were nominated and transcriptomic analyses revealed unique clusters. PDOs exhibited heterogeneous responses to standard-of-care chemotherapeutics and investigational agents. In a case study manner, we found that PDO therapeutic profiles paralleled patient outcomes and that PDOs enabled longitudinal assessment of chemosensitivity and evaluation of synchronous metastases. We derived organoid-based gene expression signatures of chemosensitivity that predicted improved responses for many patients to chemotherapy in both the adjuvant and advanced disease settings. Finally, we nominated alternative treatment strategies for chemorefractory PDOs using targeted agent therapeutic profiling. We propose that combined molecular and therapeutic profiling of PDOs may predict clinical response and enable prospective therapeutic selection. New approaches to prioritize treatment strategies are urgently needed to improve survival and quality of life for patients with pancreatic cancer. Combined genomic, transcriptomic, and therapeutic profiling of PDOs can identify molecular and functional subtypes of pancreatic cancer, predict therapeutic responses, and facilitate precision medicine for patients with pancreatic cancer. .
298 Background: The treatment landscape for pts with uHCC has recently expanded. However, there is an unmet need for effective treatment options in CPB pts. LEN is approved first-line in uHCC based on the REFLECT study (Child-Pugh A [CPA] pts were allowed, per inclusion criteria). In a prior analysis of REFLECT, pts treated with LEN benefited irrespective of baseline liver function (ALBI grade 1 or 2; Child-Pugh score 5 or 6). To determine outcomes in pts with reduced liver function, we report a post hoc analysis of key efficacy and safety results in LEN-treated pts from REFLECT who progressed to CPB and those who did not within the first 8 weeks of treatment. Methods: In REFLECT, pts with uHCC were randomized 1:1 to LEN (per bodyweight: 12 mg/day for ≥60 kg; 8 mg/day for < 60 kg) or sorafenib (400 mg twice daily) in 28-day cycles. This analysis assessed ORR. Landmark analyses (starting at week 8) of PFS, time-to-progression (TTP), and OS in CPB pts and in pts who remained CPA at 8 weeks post-randomization were also conducted. Tumors were assessed by mRECIST by independent imaging review. Safety was also assessed from baseline. Results: This subgroup analysis included LEN-treated pts (n = 60) who progressed to CPB within the first 8 weeks of treatment (CPB pts) and 413 pts who did not (CPA pts). At baseline, 26.7% and 73.1% of pts had an ALBI grade of 1 and 73.3% and 26.9% of pts had an ALBI grade of 2 in CPB and CPA pts, respectively. ORR was 28.3% (95% CI 16.9–39.7) for CPB pts and 42.9% (95% CI 38.1–47.6) for CPA pts. A landmark analysis showed a median PFS of 3.7 mos (95% CI 1.8–7.4) for CPB pts and 6.5 mos (95% CI 5.6–7.4) for CPA pts from the week 8 timepoint. Landmark analyses at week 8 also showed that the median TTP was 5.6 mos (95% CI 3.5–9.3) for CPB pts and 7.3 mos (95% CI 5.6–7.4) for CPA pts; the median OS was 6.8 mos (95% CI 2.6–10.3) for CPB pts and 13.3 mos (95% CI 11.6–16.1) for CPA pts per week 8 landmark analyses. As expected, efficacy appeared to be greater in CPA pts versus CPB pts; however, OS of 6.8 months in CPB pts after the week 8 landmark is notable. Moreover, median duration of treatment was 3.2 mos for CPB pts and 6.9 mos for CPA pts, thereby suggesting CPB pts can remain on LEN. The incidence of grade ≥3 treatment-related AEs (TRAEs) was 71.7% in CPB pts and 54.7% in CPA pts. TRAEs leading to discontinuation occurred in 18.3% of CPB pts and 7.5% of CPA pts. Conclusions: In this post hoc analysis of pts in REFLECT, we examine the key efficacy and safety results for LEN-treated pts who progressed to CPB by week 8. This post hoc analysis is limited by its descriptive nature; however, the results indicate that further study of LEN in CPB pts with uHCC is warranted. Clinical trial information: NCT01761266.
Infants born with intrauterine growth retardation (IUGR) are at increased risk of adverse pulmonary outcomes at birth, including meconium aspiration and persistent pulmonary hypertension. Preterm infants with IUGR are at especially high risk of developing bronchopulmonary dysplasia (BPD), a disease hallmarked by alveolar hypoplasia. Although vitamin A supplementation has been shown to decrease the incidence of BPD or death in preterm very low birth weight infants, its potential to reduce BPD or death in preterm infants with IUGR remains unknown. We used a well-characterized rat model of caloric restriction to mimic IUGR and determine the impact of IUGR on lung development. We hypothesized that retinoic acid treatment would preserve alveolar formation through increases in key signaling molecules of the retinoic acid signaling pathway. Our results showed that alveolar hypoplasia caused by caloric restriction can be reversed with refeeding, and that retinoic acid prevents the alveolar hypoplasia coincident with the increased expression of elastin and retinoic acid receptor-α and decreased transforming growth factor-β activity in developing rat lungs. These findings suggest that alveolar hypoplasia attributable to caloric restriction is reversible, and raises the possibility that retinoic acid therapy may prove a useful strategy to prevent adverse pulmonary sequelae such as BPD in preterm infants with IUGR.
The BCL-2 family of proteins, including anti-apoptotic members BCL-2, BCL-XL and MCL-1, are part of a complex network that controls apoptosis. BH3-mimetics such as ABT-263 inhibit anti-apoptotic BCL-2 proteins and have been developed as potential cancer therapeutics. Aurora Kinase A (AKA) is over-expressed in pancreatic cancer (PC) and controls G2-M transition during mitosis and AKA inhibitors have been developed that induce mitotic arrest. We hypothesized that mitotic arrest induced by AKA inhibition may sensitize PC to accelerated apoptosis by a BH3-mimetic. Our results demonstrated that ABT-263 plus MLN8237 treatment showed greater activity than either single drug alone, as well as strong synergism, in the inhibition of growth of pancreatic cell lines (AsPC-1, PANC-1, MIA PaCa-2, HPAF-II) and PC patient-derived organoids (PDOs). The higher efficacy of combination treatment was attributable to the higher levels of induction of apoptosis and reduction of MCL-1 in PC cells and PDOs. In addition, combination therapy was more effective than single drug in the suppression of tumor growth in AsPC-1 xenograft mouse models. Together, our findings suggest that combination therapy with ABT-263 and MLN8237 should be considered for further exploration as a novel treatment of deadly PC disease.
322 Background: The ability of cancer cells to suppress apoptosis is critical for carcinogenesis. The Bcl-2-family of regulator proteins, including the anti-apoptotic members Bcl-2, Bcl-xL and Mcl-1, contributes to a complex network in control of apoptosis. BH3-mimetics (e.g. ABT-263) can inhibit anti-apoptotic Bcl-2 proteins and therefore have been developed as potential cancer therapeutics. Aurora Kinase A (AKA) is over-expressed in pancreatic cancer (PC) and is expressed to regulate G2-M transition during mitosis, making it an attractive target for PC. In this study we hypothesized that a combination of mitotic arrest using an AKA inhibitor (e.g. MLN8237) would sensitize PC to induction of apoptosis by a BH3-mimetic. Methods: Pancreatic cell lines (AsPC-1, PANC-1, MIA PaCa-2, HPAF-II) and patient-derived pancreatic cancer organoids (PDO) were treated with a BH3-mimetic (ABT-263) alone, an AKA inhibitor (MLN8237) alone, or the combination in comparison to untreated controls. Cell viability was measured using the CellTiter-Fluor (Promega) assay. Apoptosis was evaluated by Western blot (WB) for cleaved PARP, caspase 3 or caspase 7, and flow cytometry. Nude mice were implanted with pancreatic cancer cells to generate PC xenografts which were then treated with the same 4 treatment groups as in the in vitro studies. Results: ABT-263 combined with MLN8237 showed greater potency than either single drug alone, demonstrating synergy in inhibiting the growth of PC cells and PDOs. Combined treatment with MLN8237 and ABT-263 in PDOs suppressed organoid formation and proliferation by inducing apoptosis. Mechanistically, MLN8237 enhanced the activity of ABT-263 through reduction of Bcl-xL and Mcl-1 in pancreatic cancer cell lines and PDOs. The combination therapy also showed greater suppression of the growth of xenograft tumors, as compared with control treatments with single drug alone or vehicle. Conclusions: The combination of ABT-263 and MLN8237 appears to synergistically induce apoptosis via reduction of Bcl-2 family proteins in PC and should be further explored.
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